CN114271583B - Rope-pressed vamp and braiding process thereof - Google Patents

Abstract

The invention relates to the technical field of rope-pressing shoe uppers and discloses a rope-pressing shoe upper and a braiding process thereof, wherein the rope-pressing shoe upper comprises a heel surface and a braiding surface on the heel surface, an inner net surface is further arranged in the heel surface, a gap is reserved between the inner net surface and the braiding surface, the gap is a runner, the braiding surface and the heel surface form a shoe bin, the runner is communicated with the shoe bin, a rubber sheet is connected in the runner in a sliding manner and used for discharging air of the shoe bin to one side of the heel surface, a through hole is formed in the rubber sheet and used for circulating air in the runner, a sealing device is further connected in the through hole in a sliding manner and comprises a first cylinder, and the first cylinder is used for sealing the through hole. According to the invention, the rubber sheet slides in a left-right reciprocating manner, so that the rubber sheet can absorb air in the shoe bin and remove the air, and the feet of a user can keep cool and have good air permeability.

Description

Rope-pressed vamp and braiding process thereof

Technical Field

The invention relates to the technical field of rope-pressing vamps, in particular to a rope-pressing vamp and a braiding process thereof.

Background

The rope-pressed vamp is formed by combining materials through the processes of sewing, gluing, knocking, chiseling, ironing, pulling, wrinkling and the like, and generally the vamp material also comprises an inner part, and the common characteristics of the vamp are soft touch, heat preservation, air absorption, moisture dispersion, reduction and elasticity, light and bending resistance, wear resistance, water resistance, heat resistance, easiness in processing, dyeing, no decoloration and the like, and beautiful and durable appearance.

The comparison document 1 (CN 213045628U) discloses a fly-knitted vamp with good air permeability, which comprises a vamp body, wherein an ankle part is arranged on the inner side of the vamp body, a shoelace part is arranged on the inner side of the vamp body, a small ear shoelace hole is arranged on one side of the shoelace part, a large ear shoelace hole is arranged on one side of the shoelace part, a cat ear part is arranged on the inner side of the vamp body, and the fly-knitted vamp with good air permeability is lighter and more air-permeable through the cooperation of sickle air holes, second tension lines, annular holes and first tension lines, so that a foot is more comfortable;

the comparison document 2 (CN 213045629U) discloses a comfortable breathable fly-knitted vamp, which comprises a base layer, wherein a knitting layer is sewn on the upper side of the base layer, a threading hole is formed in the surface of the base layer, tooth-shaped protrusions are arranged on the outer ring of the base layer, ventilation micropores are formed in the surface of the base layer, the base layer is tightly sewn on the lower side of the knitting layer in the comparison document 2, a certain stable supporting effect is achieved, the hardness of the vamp is improved, the vamp is more shaped, and the toughness of the vamp can be greatly improved by the artificial leather layer in the base layer;

the utility model provides a cool comfortable flying shoes of high performance is disclosed in comparison document 3 (CN 213045594U), including the sole, the inside of sole is provided with the backup pad, the bottom surface of sole is connected with the air cushion, the inside of air cushion is provided with the fixed plate, the bottom of air cushion is connected with the slipmat, the top surface of sole is provided with the shoe-pad, the top surface of sole is connected with the vamp, the surface of vamp is connected with carries the area, the surface connection of sole has the fixed shell, the top surface of fixed shell is connected with the protection fixed network, the bottom surface of protection fixed network is connected with the motor, drives the flabellum through the motor and rotates, makes the wind that the flabellum produced enter into in the sole through the ventilation pipe;

the comparison document 1 (CN 213045628U) and the comparison document 2 (CN 213045629U) only move in the shoe inner space through the foot of the user, and exhaust air, but the foot has limited moving space in the shoe, so that the air in the shoe is exhausted, and the air permeability is not good, and then the comparison document 3 (CN 213045594U) is internally provided with a motor, a fan and a semiconductor refrigerating sheet, so that the manufacturing cost is high, the shoe is not suitable for mass production, and in sum, the air permeability of the conventional rope-pressure shoe vamp is not good, and the air in the shoe cannot be automatically exhausted.

Disclosure of Invention

The invention provides a rope-pressing vamp and a braiding process thereof, which have the beneficial effects of good ventilation and capability of automatically exhausting air in a shoe, and solve the problems that the prior vamp in the background art only simply enlarges the braided aperture, so that the air in the shoe is exhausted under the motion of a foot, thereby realizing ventilation, but the foot has limited movable space in the shoe, thereby leading to limited air exhaust in the shoe and poor ventilation.

The invention provides the following technical scheme: the rope-pressing vamp is provided with a knitting surface, an inner net surface is further arranged on the inner side of the vamp, the knitting surface and the inner net surface both comprise a part which is positioned above a foot and a part which is connected with the part above the foot and is positioned below the foot when the vamp is worn, a gap exists between the inner net surface and the knitting surface, the gap is a runner, the runner comprises a first circulation port which is used for communicating the runner with the outer side of the vamp, the first circulation port is arranged on a heel surface, the knitting surface is communicated with a shoe bin, the runner is communicated with the shoe bin, and a rubber sheet is connected inside the runner in a sliding manner and is matched with the runner; the rubber sheet is used for exhausting air of the shoe bin to one side of the heel face;

the utility model discloses a shoe bin is characterized by comprising a rubber sheet, a through-hole has been seted up on the rubber sheet, the through-hole is used for circulating the inside air of runner, the inside of through-hole still sliding connection has sealing device, sealing device includes first drum, first drum is used for sealed through-hole, still install first elastic cord on the intranet face, first elastic cord is connected with the rubber sheet, still install protruding ball on the intranet face, the rubber sheet is used for contradicting protruding ball, through the left and right reciprocating sliding of rubber sheet to let the rubber sheet can absorb the inside air of shoe bin and get rid of, let user's foot can keep cool, the gas permeability is good.

As an alternative to the rope-pressed upper according to the invention, wherein: the runner comprises a circulation bin, a treatment bin and a first circulation port which are sequentially arranged between the knitting surface and the inner mesh surface, and the circulation bin, the treatment bin and the first circulation port are communicated; wherein the processing bin is positioned right below the pressing ball;

the inside of circulation storehouse still sliding connection has the part of breathing in, the part of breathing in is used for extrudeing air to sheet rubber department, the part of breathing in includes the slide of sliding connection in circulation storehouse inside, be provided with the second circulation mouth of circulation air on the slide, still sliding connection has first stay cord in the second circulation mouth, first stay cord is connected with first drum, still install the second drum that is used for sealed second circulation mouth on the first stay cord, utilize the sheet rubber can extract the inside air of circulation storehouse, let the sheet rubber can replace more air to the inside of shoe storehouse under the help of slide.

As an alternative to the rope-pressed upper according to the invention, wherein: the first round disc is connected with the first round disc in a sliding mode, a first pull rope is installed in the first round disc, the first pull rope is connected with the inside of the first round disc in a sliding mode, a second round disc is connected with the inside of the second round disc in a sliding mode, the second round disc is connected with a third pull rope, and the third pull rope is connected with the inside of the second round disc in a sliding mode.

As an alternative to the rope-pressed upper according to the invention, wherein: the sliding plate is further provided with an extending plate, the inner mesh surface is used for extruding the sliding plate to shrink, and the extending plate is mutually attached to avoid backflow of the second flow port.

As an alternative to the rope-pressed upper according to the invention, wherein: the utility model discloses a foot sole ventilation device, including the inner mesh, the inner mesh is provided with the ball, still be provided with the adjustment tank in the inner wall of the position that the inner mesh is located the foot below, the inside sliding connection in adjustment tank has the flitch, install the ball on the flitch, the inner wall of inner mesh still is provided with the vertical hole, the vertical hole is connected with the adjustment tank, the slide sets up for the horizontal plane slope, when the slide slides to the right side, the slide can pass the ball, do not influence the flitch on the ball for the flitch can continue sealed vertical hole, later when the slide resets to slide to the left side, the slide can conflict on the ball, make the flitch can sliding connection in the inside of adjustment tank, and then through slide left side push ball and flitch slip, make the flitch expose the vertical hole, drive left air into vertical hole department through the slide, by vertical hole and inclined hole blowout to user's sole ventilation.

As an alternative to the rope-pressed upper according to the invention, wherein: the rubber sheet is provided with an air outlet, the first cylinder is further provided with a rubber block, the rubber block is used for sealing the air outlet, and the circulating air quantity is improved through the air outlet.

As an alternative to the rope-pressed upper according to the invention, wherein: the inner mesh surface is positioned below the foot, an inclined hole is further formed in the inner mesh surface and is communicated with the vertical hole, a third elastic rope is further arranged in the inner mesh surface and is connected with the sliding plate, and the third elastic rope is used for driving the sliding plate to reset;

the inner net surface is also provided with a second elastic rope, the second elastic rope is connected with the sliding plate, the inner net surface is also provided with a first elastic rope, the first elastic rope is connected with the rubber sheet, and the area for spraying air is enlarged through the matching of the inclined holes and the vertical holes.

As an alternative to the rope-pressed upper according to the invention, wherein: still install the elastic plate on the heel face, the elastic plate is used for sealing first flow opening, still install the rubber strip on the heel face, the rubber strip is used for contradicting on the elastic plate, through the cooperation of rubber strip and elastic plate, improves the leakproofness.

As an alternative to the rope-pressed upper according to the invention, wherein: the inner mesh surface is also provided with a pressing ball, the inside of the pressing ball is also provided with a power component, the power component is used for driving the pressing ball to reset, the power component comprises a soft board connected to the pressing ball, the soft board is connected with a rubber sheet, the soft board is used for driving the rubber sheet to slide, the inside of the woven surface is also provided with an adjusting bin, the soft board penetrates through the woven surface and is connected to the adjusting bin in a sliding manner, the inside of the woven surface is also provided with an air cushion, and the air cushion is used for abutting against the soft board;

the flexible board is further provided with a second pull rope, the second pull rope is connected with the first cylinder, the first pull rope is provided with push plates, and the push plates are used for pushing the rubber sheet and the sliding plate to reset.

The invention also provides a knitting process of the rope-pressing vamp,

s1, feeding a net yarn, polyester yarns and cotton yarns into a computerized flat knitting machine, knitting a heel surface and an inner net surface through the computerized flat knitting machine, and jointly knitting the heel surface and the inner net surface by utilizing the net yarn, the polyester yarns and the cotton yarns so as to improve the use strength and the air permeability of the heel surface and the inner net surface;

s2, feeding the net yarn, the polyester yarn and the cotton yarn into a computerized flat knitting machine, knitting a knitting surface by the computerized flat knitting machine, and jointly knitting the knitting surface by the net yarn, the polyester yarn and the cotton yarn, so that the use strength and the air permeability of the knitting surface are improved;

s3, filling fillers into the heel face, the inner net face and the knitting face, and realizing rebound effects of the heel face, the inner net face and the knitting face through the fillers;

s4, washing the vamp, adding an auxiliary agent for hardening the vamp into the washing solution, flattening and dehydrating, and hardening the vamp to improve the service strength of the vamp;

s5, putting the heel face, the inner net face and the woven face into a cutting machine of the cutting machine, sewing and forming through a sewing machine, cutting through the cutting machine, and then sewing rapidly through the sewing machine.

The invention has the following beneficial effects:

1. the rope presses the vamp, through the left and right reciprocating sliding of the rubber sheet, thereby the rubber sheet can absorb the air in the shoe bin and remove the air, and fresh air enters from the position between the heel face and the power part, so that the device can keep cool and keep the feet of a user, and has good ventilation property.

2. This vamp is pressed to rope is through the inside air in slide extraction circulation storehouse for the second drum is opened the second through sliding left opening, later through the slip slide, makes the left air flow of slide to the right side of slide, and then utilizes the sheet rubber can extract the inside air in circulation storehouse, lets the sheet rubber can replace more air to the inside in shoe storehouse under the help of slide.

3. This vamp is pressed to rope, through the cooperation of first drum, first disc, second drum and second disc, let the inside air of a plurality of slide can extract the shoe storehouse to the inside in circulation storehouse to realize increasing the volume of breathing in, let the rubber sheet can a large amount of extrusion air discharge, further let user's foot can keep cool, the gas permeability is good.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a cross-sectional view of the entire present invention.

Fig. 3 is a schematic view of the structure of the power unit of the present invention.

Fig. 4 is a schematic structural view of the suction member of the present invention.

Fig. 5 is a schematic view of the partial structure of fig. 4B according to the present invention.

Fig. 6 is a schematic view of the partial structure at a in fig. 4 according to the present invention.

In the figure: 1. a heel face; 2. pressing the ball; 3. a power component; 4. an inner mesh; 5. a woven face; 6. a flow passage; 7. an air cushion; 8. a rubber sheet; 9. a suction member; 10. a through hole; 11. an elastic plate; 12. a rubber strip; 13. a first disc; 14. a first pull rope; 15. a rubber block; 16. an air outlet hole; 17. a first elastic cord; 18. a second elastic cord; 19. a third elastic cord; 20. a treatment bin; 21. a circulation bin; 22. a first flow port; 23. a first cylinder; 24. an adjustment tank; 25. a ball; 26. a vertical hole; 27. inclined holes; 28. a slide plate; 29. a shoe bin; 30. convex ball; 91. a slide plate; 92. a second flow port; 94. a protruding plate; 95. a second cylinder; 96. a second disc; 97. a third pull rope; 98. pushing the disc; 31. a flexible board; 32. a second pull rope; 34. and (5) adjusting the bin.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

The rubber sheet 8 slides back and forth to suck air in the shoe bin 29 and remove the air, so that the feet of a user can keep cool and have good air permeability, referring to fig. 1-3, a rope-press vamp is provided, wherein the vamp is provided with a knitting surface 5, the inner side of the vamp is also provided with an inner net surface 4, the knitting surface 5 and the inner net surface 4 both comprise a part which is positioned above the foot and a part which is connected with the part above the foot and is positioned below the foot when being worn, a gap is reserved between the inner net surface 4 and the knitting surface 5, the gap is a runner 6, the runner comprises a first circulation port 22 for communicating the runner with the outer side of the vamp, the first circulation port 22 is arranged on the heel surface, the knitting surface 5 and the heel surface 1 form the shoe bin 29, the runner 6 is communicated with the shoe bin 29, the rubber sheet 8 is slidingly connected in the runner 6, and the rubber sheet 8 is matched with the runner 6; the rubber sheet 8 is used for exhausting air of the shoe bin 29 to one side of the heel face 1;

the rubber sheet 8 is provided with a through hole 10, the through hole 10 is used for circulating air in the runner 6, the inside of the through hole 10 is also connected with a sealing device in a sliding manner, the sealing device comprises a first cylinder 23, the first cylinder 23 is used for sealing the through hole 10, the inner mesh surface 4 is also provided with a first elastic rope 17, the first elastic rope 17 is connected with the rubber sheet 8, the inner mesh surface 4 is also provided with a convex ball 30, and the rubber sheet 8 is used for abutting against the convex ball 30;

the second stay cord 32 is still installed on the soft board 31, and the second stay cord 32 is connected with first drum 23, all installs on the first stay cord 14 and pushes away a dish 98, pushes away a dish 98 and is used for promoting rubber sheet 8 and slide 91 to reset, and runner 6 is including setting gradually circulation storehouse 21, processing storehouse 20 and the first circulation opening 22 between knitting face 5 and intranet face 4, and circulation storehouse 21, processing storehouse 20 are linked together with first circulation opening 22, and wherein, processing storehouse 20 is located under pressing ball 2.

Inspiration and exhaustion: according to fig. 3, by sliding the first cylinder 23 rightward, the first cylinder 23 is sealed on the through hole 10, then the rubber sheet 8 is pushed to slide rightward by the first cylinder 23, the rubber sheet 8 passes through the raised ball 30 and stretches the first elastic cord 17, the rubber sheet 8 is matched with the circulation bin 21, so that negative pressure is generated in the circulation bin 21 by the rubber sheet 8, air in the shoe bin 29 can be pumped into the circulation bin 21 by the negative pressure, then when the first cylinder 23 slides leftward, the first cylinder 23 exposes the through hole 10, at this time, the rubber sheet 8 is abutted against the raised ball 30, so that the first cylinder 23 slides leftward first, the through hole 10 is exposed, then the rubber sheet 8 is pulled by the first elastic cord 17 to slide leftward by the raised ball 30, so that air in the circulation bin 21 can flow through the through hole 10, the air in the circulation bin 21 can flow to the first circulation hole 22, and the air in the shoe bin 29 can be sucked and discharged by the rubber sheet 8, and cool and fresh air can be introduced into the foot 3 from between the rear part 1 and the power part, so that the ventilation performance is good.

Examples

The rubber sheet 8 is utilized to extract air in the circulation bin 21, so that the rubber sheet 8 can replace more air into the shoe bin 29 with the help of the sliding plate 91, the embodiment is an improvement based on the embodiment 1, specifically, please refer to fig. 1-4, the inside of the circulation bin 21 is further slidably connected with the air suction component 9, the air suction component 9 is used for extruding air to the rubber sheet 8, the air suction component 9 comprises the sliding plate 91 slidably connected in the circulation bin 21, the sliding plate 91 is provided with the second circulation port 92 for circulating air, the second circulation port 92 is further slidably connected with the first pull rope 14, the first pull rope 14 is connected with the first cylinder 23, and the first pull rope 14 is further provided with the second cylinder 95 for sealing the second circulation port 92.

Ventilation is increased: according to fig. 4, the slide plate 91 is further installed in the circulation bin 21, the second cylinder 95 is abutted against the slide plate 91, so that the second circulation port 92 is sealed, the slide plate 91 becomes a sealing body, the slide plate 91 slides to the right side, so that negative pressure is generated in the circulation bin 21 by the slide plate 91, air in the circulation bin 21 is extracted by the slide plate 91, the second cylinder 95 is slid to the left, the second cylinder 95 is opened to enable the second circulation port 92 to be opened, then the air on the left side of the slide plate 91 flows to the right side of the slide plate 91 by the slide plate 91, the air in the circulation bin 21 can be extracted by the rubber sheet 8, and more air can be replaced to the inside of the shoe bin 29 by the rubber sheet 8 with the help of the slide plate 91.

Examples

The air in the shoe bin 29 is drawn into the circulation bin 21 by the sliding plate 91, so as to increase the suction volume, and the embodiment is an improvement based on the embodiment 2, specifically, referring to fig. 1-4, the first disc 13 is slidably connected in the first cylinder 23, the first pull rope 14 is mounted in the first disc 13, the first pull rope 14 is slidably connected in the first cylinder 23, the second disc 96 is slidably connected in the second cylinder 95, the second disc 96 is connected with the third pull rope 97, and the third pull rope 97 is slidably connected in the second cylinder 95.

Increase the area of breathing in: according to fig. 2, a plurality of sliding plates 91 are installed in the circulation bin 21, when the second pulling rope 32 pulls the rubber sheet 8 to slide and suck air to the left, the sliding plates are connected to the inside of the first cylinder 23 through the first disc 13, when the first disc 13 slides to the limit of the first cylinder 23, the first cylinder 23 pulls the first pulling rope 14 to slide to the right, so that the air in the shoe bin 29 can be prevented from being sucked to the inside of the circulation bin 21 by avoiding that the space area is not changed, then the second cylinder 95 is pulled by the first cylinder 23 to abut against the first sliding plate 91, the sliding plates 91 are sucked in a negative pressure manner, at the moment, the second disc 96 in the second cylinder 95 is slidably connected to the inside of the second cylinder 95, so that the third pulling rope 97 on the second disc 96 does not pull the second sliding plate 91 to slide to the right, and further avoid that the space area is not changed, and the plurality of sliding plates 91 can suck air to the inside of the shoe bin 29 through the first cylinder 23, the first disc 13, the second cylinder 95 and the second disc 96 are prevented from being changed, so that the air in the inside of the shoe bin 29 can be sucked to the inside of the circulation bin 21 is prevented from being sucked to the inside, and the air can be discharged by a large amount of the rubber sheet 8, and the foot can be kept cool, and the foot can be further exhausted by a user.

Examples

The second flow port 92 is prevented from flowing back by the sticking-out plates 94, which are attached to each other, and the embodiment is an improvement based on the embodiment 3, specifically, referring to fig. 1 to 4, the sliding plate 91 is further provided with the sticking-out plates 94, and the inner mesh 4 is used for compressing the sliding plate 91 to shrink.

Avoiding reflux: according to fig. 4, since the slide plate 91 is in an inverted V shape, when the inner mesh 4 presses the slide plate 91, the opening on the right side of the slide plate 91 gradually contracts, and the two protruding plates 94 are attached to each other, so that the protruding plates 94 seal the right side of the second circulation port 92, and when the inner mesh 4 and the woven mesh 5 compress the circulation chamber 21, air in the circulation chamber 21 does not flow back through the second circulation port 92.

Examples

The method comprises the steps of driving left air into a vertical hole 26 through a sliding plate 91, spraying the air from the vertical hole 26 and an inclined hole 27 to ventilate the sole of a user, wherein the embodiment is an improvement based on the embodiment 3, specifically, referring to fig. 1-6, an adjusting groove 24 is further formed in the inner wall of the part of the inner mesh surface 4 below the foot, a sliding plate 28 is slidably connected to the inner part of the adjusting groove 24, a ball 25 is mounted on the sliding plate 28, a vertical hole 26 is further formed in the inner wall of the inner mesh surface 4, the vertical hole 26 is connected with the adjusting groove 24, and the vertical hole 26 is used for extruding the ball 25 to slide;

the rubber sheet 8 is provided with an air outlet hole 16, the first cylinder 23 is also provided with a rubber block 15, and the rubber block 15 is used for sealing the air outlet hole 16;

the inner mesh surface 4 is also provided with an inclined hole 27 at the position below the foot, the inclined hole 27 is communicated with a vertical hole 26, a third elastic rope 19 is also arranged in the inner mesh surface 4, the third elastic rope 19 is connected with a sliding plate 28, and the third elastic rope 19 is used for driving the sliding plate 28 to reset;

the second elastic rope 18 is further installed on the inner net surface 4, the second elastic rope 18 is connected with the sliding plate 91, the first elastic rope 17 is further installed on the inner net surface 4, and the first elastic rope 17 is connected with the rubber sheet 8.

Ventilation of the sole: according to fig. 5, when the sliding plate 91 slides to the right, the sliding plate 91 passes through the ball 25, so that the sliding plate 28 on the ball 25 is not affected, the sliding plate 28 can continuously seal the vertical hole 26, then when the sliding plate 91 slides to the left, the sliding plate 91 can abut against the ball 25, so that the sliding plate 28 can be slidably connected in the adjusting groove 24, and then the ball 25 and the sliding plate 28 are pushed to the left through the sliding plate 91, so that the sliding plate 28 exposes the vertical hole 26, and as the sliding plate 91 slides to the left, part of air is driven, the left air is driven into the vertical hole 26 through the sliding plate 91, and is sprayed out through the vertical hole 26 and the inclined hole 27, so that the device can inhale the sole of a user, and the ventilation property of the device is further improved.

Examples

The automatic ventilation of the device is realized by resetting the first elastic rope 17 and the second elastic rope 18, the embodiment is an improvement made on the basis of the embodiment 1, specifically, referring to fig. 1-6, the inner mesh surface 4 is further provided with a pressing ball 2, the inside of the pressing ball 2 is further provided with a power component 3, the power component 3 is used for driving the pressing ball 2 to reset, the power component 3 comprises a soft board 31 connected to the pressing ball 2, the soft board 31 is connected with the rubber sheet 8, the soft board 31 is used for driving the rubber sheet 8 to slide, an adjusting bin 34 is further arranged in the knitting surface 5, the soft board 31 penetrates through the knitting surface 5 and is slidingly connected to the adjusting bin 34, the inside of the knitting surface 5 is further provided with an air cushion 7, and the air cushion 7 is used for abutting against the soft board 31.

Automatic ventilation: according to fig. 2, when a user steps on the pressing ball 2, the pressing ball 2 presses the soft board 31 to slide downwards, so that the soft board 31 presses the air cushion 7, the soft board 31 pulls the second pull rope 32 to slide downwards, the first cylinder 23 and the rubber sheet 8 slide rightwards through the second pull rope 32, the first cylinder 23 pulls the first pull rope 14 inside to slide rightwards, the first pull rope 14 pulls the second cylinder 95 to slide rightwards, the second cylinder 95 drives the sliding plate 91 to slide rightwards, negative pressure suction is realized by sliding the rubber sheet 8 and the sliding plate 91 rightwards, then when the user is suspended at the foot part and does not step on the pressing ball 2, the soft board 31 is extruded to reset through the rebound of the air cushion 7, the soft board 31 drives the second pull rope 32 to reset, the rubber sheet 8 and the second flow opening 92 are not pulled any more through the second pull rope 32, and the rubber sheet 8 and the second flow opening 92 are reset through the first elastic rope 17 and the second elastic rope 18, and automatic ventilation of the device is realized.

Examples

The invention also provides a knitting process of the rope-pressing vamp,

s1, feeding a network yarn, polyester and cotton yarn into a computerized flat knitting machine, knitting a heel surface 1 and an inner net surface 4 through the computerized flat knitting machine, and jointly knitting the heel surface 1 and the inner net surface 4 by utilizing the network yarn, the polyester and the cotton yarn, so that the use strength and the air permeability of the heel surface 1 and the inner net surface 4 are improved;

s2, feeding the net yarn, the polyester yarn and the cotton yarn into a computerized flat knitting machine, knitting the knitting surface 5 through the computerized flat knitting machine, and jointly knitting the knitting surface 5 by utilizing the net yarn, the polyester yarn and the cotton yarn, so that the use strength and the air permeability of the knitting surface 5 are improved;

s3, filling fillers into the heel surface 1, the inner net surface 4 and the knitting surface 5, and realizing the rebound effect of the heel surface 1, the inner net surface 4 and the knitting surface 5 through the fillers;

s4, washing the vamp, adding an auxiliary agent for hardening the vamp into the washing solution, flattening and dehydrating, and hardening the vamp to improve the service strength of the vamp;

s5, putting the heel surface 1, the inner net surface 4 and the woven surface 5 into a cutting machine, sewing and forming through a sewing machine, cutting through the cutting machine, and then rapidly sewing through the sewing machine.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (10)

1. A rope-pressed vamp, wherein the vamp is provided with a woven surface (5), characterized in that: the shoe comprises a shoe upper, and is characterized in that an inner mesh (4) is further arranged on the inner side of the shoe upper, the knitted surface (5) and the inner mesh (4) both comprise a part which is positioned above the foot and a part which is connected with the part above the foot and is positioned below the foot when being worn, a gap exists between the inner mesh (4) and the knitted surface (5), the gap is a runner (6), the runner comprises a first flow opening (22) which is used for communicating the runner with the outer side of the shoe upper, the first flow opening (22) is arranged on the heel surface, the knitted surface (5) and the heel surface (1) form a shoe bin (29), the runner (6) is communicated with the shoe bin (29), a rubber sheet (8) is connected inside the runner (6) in a sliding mode, and the rubber sheet (8) is matched with the runner (6); the rubber sheet (8) is used for exhausting air of the shoe bin (29) to one side of the heel surface (1);

the rubber sheet (8) is provided with a through hole (10), the through hole (10) is used for circulating air in the runner (6), the inside of the through hole (10) is also connected with a sealing device in a sliding mode, the sealing device comprises a first cylinder (23), the first cylinder (23) is used for sealing the through hole (10), the inner mesh (4) is also provided with a first elastic rope (17), the first elastic rope (17) is connected with the rubber sheet (8), the inner mesh (4) is also provided with a raised ball (30), and the rubber sheet (8) is used for abutting against the raised ball (30);

the inner mesh (4) is located the position below the foot and still installs and presses ball (2), the inside of pressing ball (2) still installs power component (3), power component (3) are used for driving to press ball (2) to reset, power component (3) are including connecting soft board (31) on pressing ball (2), soft board (31) are connected with sheet rubber (8), soft board (31) are used for driving sheet rubber (8) to slide, the inside of weaving face (5) still is provided with regulation storehouse (34), soft board (31) run through weaving face (5) and sliding connection are on regulation storehouse (34), air cushion (7) are still installed to the inside of weaving face (5), air cushion (7) are used for contradicting soft board (31);

a second stay cord (32) is further arranged on the soft board (31), and the second stay cord (32) is connected with the first cylinder (23).

2. The rope-press shoe upper according to claim 1, wherein: the runner (6) comprises a circulation bin (21), a treatment bin (20) and a first circulation port (22) which are sequentially arranged between the knitting surface (5) and the inner mesh surface (4), and the circulation bin (21), the treatment bin (20) and the first circulation port (22) are communicated; wherein the treatment bin (20) is positioned right below the pressing ball (2);

the inside of circulation storehouse (21) still sliding connection has inhalation piece (9), inhalation piece (9) are used for extrudeing air to sheet rubber (8) department, inhalation piece (9) are including sliding connection at inside slide (91) of circulation storehouse (21), be provided with second circulation mouth (92) of ventilation air on slide (91), still sliding connection has first stay cord (14) in second circulation mouth (92), first stay cord (14) are connected with first drum (23), still install second drum (95) that are used for sealed second circulation mouth (92) on first stay cord (14).

3. The rope-press shoe upper of claim 2, wherein: the novel multifunctional electric bicycle is characterized in that a first disc (13) is connected in the first cylinder (23) in a sliding mode, a first pull rope (14) is mounted in the first disc (13), the first pull rope (14) is connected in the first cylinder (23) in a sliding mode, a second disc (96) is connected in the second cylinder (95) in a sliding mode, the second disc (96) is connected with a third pull rope (97), and the third pull rope (97) is connected in the second cylinder (95) in a sliding mode.

4. A rope-pressed upper according to claim 3, wherein: the sliding plate (91) is also provided with an extending plate (94), and the inner mesh (4) is used for extruding the sliding plate (91) to shrink.

5. A rope-pressed upper according to claim 3, wherein: the utility model discloses a sliding plate, including interior mesh (4) and sliding plate (28), including mesh (91) and slide plate (28), still be provided with adjustment tank (24) in the inner wall of the position that is located the foot below, the inside sliding connection of adjustment tank (24) has slide plate (28), install ball (25) on slide plate (28), the inner wall of mesh (4) still is provided with vertical hole (26), vertical hole (26) are connected with adjustment tank (24), slide plate (91) are inclined for the horizontal plane setting, when slide plate (91) slides to the right side, slide plate (91) can pass ball (25), do not influence slide plate (28) on ball (25), make slide plate (28) can continue sealed vertical hole (26), later when slide plate (91) reset to slide to the left side, slide plate (91) can conflict on ball (25), make slide plate (28) can sliding connection in the inside of adjustment tank (24), and then push ball (25) and slide plate (28) to the left side through slide plate (91) for slide plate (28) to expose vertical hole (26).

6. The rope-press shoe upper of claim 2, wherein: the rubber sheet (8) is provided with an air outlet hole (16), the first cylinder (23) is also provided with a rubber block (15), and the rubber block (15) is used for sealing the air outlet hole (16).

7. The rope-press shoe upper of claim 5, wherein: the inner net surface (4) is further provided with an inclined hole (27) at a position below the foot, the inclined hole (27) is communicated with the vertical hole (26), a third elastic rope (19) is further arranged in the inner net surface (4), the third elastic rope (19) is connected with the sliding plate (28), and the third elastic rope (19) is used for driving the sliding plate (28) to reset;

the inner net surface (4) is further provided with a second elastic rope (18), the second elastic rope (18) is connected with the sliding plate (91), the inner net surface (4) is further provided with a first elastic rope (17), and the first elastic rope (17) is connected with the rubber sheet (8).

8. The rope-press shoe upper of claim 5, wherein: still install elastic plate (11) on heel face (1), elastic plate (11) are used for sealed first flow opening (22), still install rubber strip (12) on heel face (1), rubber strip (12) are used for contradicting on elastic plate (11).

9. A rope-pressed upper according to claim 3, wherein: the first pull rope (14) is provided with a push disc (98), and the push disc (98) is used for pushing the rubber sheet (8) and the sliding plate (91) to reset.

10. A braiding process for making a rope-pressed upper according to claim 1, characterized in that:

s1, feeding a network yarn, polyester yarns and cotton yarns into a computerized flat knitting machine, and knitting a heel surface (1) and an inner net surface (4) through the computerized flat knitting machine;

s2, feeding the net yarn, the polyester yarn and the cotton yarn into a computerized flat knitting machine, and knitting a knitting surface (5) through the computerized flat knitting machine;

s3, filling fillers into the heel surface (1), the inner mesh surface (4) and the knitting surface (5);

s4, vamp washing water, adding an auxiliary agent for hardening the vamp into the washing water solution, and flattening and dehydrating;

s5, putting the heel surface (1), the inner net surface (4) and the woven surface (5) into a cutting machine, and sewing and forming through a sewing machine.